Furnace charging device



April 1, 1952 F. w. GUMPP FURNACE CHARGING DEVICE 3 Sheets-Sheet 1 Filed Sept. 2, 1948 mm I. mm ll.

INVENTOR.

FREDRIGK W. GUMPP In BY ATT RN April 1, 1952 F. W. GUMPP FURNACE CHARGING DEVICE Filed Sept. 2, 1948 3 Sheets-Sheet 2.

INVENTOR.

FREDRICK' W. GUMPP ATTO NEY F. W. GUMPP FURNACE CHARGING DEVICE April 1, 1952 5 Sheets-Sheet 3 Filed Sept. 2, 1948 IN V EN TUR.

WK mm FREDRIGK W. GUMIPP ATTORNE Patented Apr. 1, 1952 FURNACE CHARGING DEVICE Fredrick W. Gumpp, Massillon, Ohio, assignor of twenty-five per cent to J. Warren Kinney, Jr.,

Cincinnati, Ohio Application September 2, 1948, Serial No. 47,468

2 Claims.

able for charging the scrap thru the top of the furnace upon removal of a section of the furnace roof.

Another object of the invention is to provide a furnace with means for effecting discharge of molten metal thru the bottom wall of the furnace directly into suitable molds thereby reducing the tapping time to a minimum while eliminating the necessity for costly equipment such as ladle cranes, ladles, stoppers, rigs, re.

fractories, molds, buggies, and the like.

A further object of the invention is to provide a furnace with means for effecting tapping of the furnace by means of a hollow stopper rod supported from that portion of the furnace roof above and in axial alignment with a pouring nozzle in the furnace bottom.

Still another object of the invention is to provide a metal melting furnace with a hollow stopper rod secured relative to and carried by that portion of the furnace roof located over a pouring nozzle located in the bottom of the furnace, wherein the stopper rod is so constructed and arranged as to facilitate the introduction of desired elements into the melt, and/or to discharge suitable elements directly into the interior of the stream of metal being discharged thru the pouring nozzle.

Still another object of the invention is to provide a furnace construction having the hereinabove described characteristics and wherein the hollow stopper rod is provided with means for establishing a tap hole thru the rammed material in the bottom of the furnace and in communication with the axial bore of a pouring nozzle mounted in the bottom of the furnace.

Another object of the invention is to provide a metal melting furnace with an easily replaceable pouring nozzle unit.

Still a further object of the invention is to teach a method of controlling the chemical analysis of the melt of a metal melting furnace by introducing various elements directly into the 2 interior of the stream of metal'being discharged through the pouring nozzle.

A further object of the invention is to provide a furnace having thehereinabove described characteristics which may be economically erected at those geographic locations where light scrap is available, thereby enabling such furnaces to be operated by scrap dealers, scrap producers or scrap users, at places remote from the large steel centers. In this manner the scrap may be efficiently and effectively reduced to pig scrap which may be economically handled, and which by reason of its controlled analysis, will find a ready market.

Another object of the invention is to provide a furnace of the open hearth type, the roof of which is provided with a removable section having an area substantially co-extensive with the bottom of ,the furnace, and wherein said removable roof section is provided with bearing members so constructed and arranged. to support the entire weight of said removable section for effecting a lifting of one or both sides of the removable sectidn for facilitating charging of the furnace from one or both sides.

Still a further object of the invention is to provide an open hearth furnace with a removable roof section having an area substantially co-extensive with the bottom of the furnace and wherein said removable roof section has a load bearing platform fixed relative thereto, said platform being constructed and arranged to receive and support suitable mechanism for supporting and actuating a hollow stopper rod assembly adapted to be lowered downwardly thru said removable roof section, into the interior of the furnace, thence into and thru the slag and molten metal for establishing a passageway thru the bed of rammed material and in communication with a pouring nozzle mounted in the bottom wall of the furnace, said stopper rod being further actuatable for controlling the discharge of molten metal thru the pouring nozzle.

Another object of the invention is to provide a method of producing pig scrap having a known or predetermined analysis, and wherein the melt may be tapped at any time, in any desired amount.

Another object is to teach a method of providing a dense charge while saving from 25% to 30% of the present furnace melting time.

A further object of the invention is to provide a furnace which is provided with tiltable chargins platforms which include hopper portions or material bins for the reception of quantities of suitable elements such as manganese, carbon and the like, and wherein said hoppers or material bins are pivotally seciu'ed relative to the charging platform whereby to facilitate the introduction of the contents of said hoppers or material bins into the interior of the furnace independently of and prior 'to the introduction of the scrap carried bythe platform.

'Still a further object of the invention is to provide a metal melting furnac which may be.

charged with all types of as is scrap and with a minimum, if any, baling, cutting and handling, therebyeliminating the need for expensive cumbersome charging machines and charging boxes heretofore used by the industry.

These and other objects are attained by the and are secured to the front and rear edges of the removable roof section 16, said channels being rigidly interconnected by meansof reenforcing elements 56 and 586 which, strengthen the roof section-so that it may be moved about as means described herein and as disclosed by the accompanying drawings, in which:

Fig. 1 is a vertical section thru a typical fur nace'em'bodying the teachings of the present invention, wherein those portions to the right of line 'A-A have been taken thru the centerportion of thefurnace; and those portions to the left of line A-A have been taken thru the forward end of the furnace bottom. 7

:Fig. 2- is an enlarged sectional view thru the 'bottom of the furnace-adjacent the pouring nozzle, and the lower end of the hollow stopper rod comprising a detail of the invention.

; Fig. 3 is a 'view taken on line 3-3 of Fig. 2. Fig. 4 is a Vertical section taken thru the cen- 'ter portion of the furnace showing the roof in an elevated position, and showing the charging platforms indifferent operative positions.

'fWlth reference now toFig. 1, it willbe observed thatthe furnace. compriseambroadly speaking, a bottom -I0,-.a front wall 12,-: aback wall l4 and a removable roof section I6. .A furnace or hearth upan l8.-'extends under bottom. illand, as is the :usual? practice, is provided with: upturned portions 20.

With particular reference now to Fig. 2, it will he noted that the bottom portion of the. hearth pan is not continuous butis-provided with an integrally formed upwardly extending conical portion 22, the height of which is of a dimension-apriproxim'ating the thickness dimension of bottomlfl.

.A'pouring. nozzle insert is adapted to be re- .ceived within the interior. of conical portion 22, said insert comprising anouter-wall or shell 24 'of' sheet metal'or the like, having a taper com- #:plementary to that of portion 22. A nozzle brick '25 is. disposed axially of shell 24, being fixedly "secured therein by means of rammedmaterial 28,=-which may be suitably baked to provide an integral unitcomprising shell-24, nozzle brick 25 andrammed material 28 receivable within-por- 7 and ffectivelyattached or removed by means of -mountingplate 32 which may be removably se-' cured to and carried by hearth pan l8 by means 'of suitable bolts 34, or the like. The mounting plate includes an aperture 36 thru which nose or :nozzle portion- 38. of thenozzle' brick may. pro- .ject, a's'illustrated. It will be understood that access to'the' pouring nozzle maybe had from the .roof portion of a runway extending'laterallyunder the furnace, and in which runway suitable -molds-4l may be conveyed beneath the pouring nozzle on a suitable conveyance such as a car a'single integral unit. Bearing brackets 58 are secured to and carried by channels 50 and 52,

.said brackets being constructed and arranged to support the entire weight of the removable roof "sectionwvhen 'it isnot'supported on walls '12 and M.

. Means, such as, by way-of example, hydraulic jacks'fiil may beoperatively associated with the bearing brackets" for effecting a lifting of one-pr both edges of. roof section Iii-upwardly for openone time.

ing the top of the furnace. It should be understood that in those instances where suitable hoists are available, roof section- 'I 6 may be lifted by cranes instead of by the hydraulicjacks'fifl.

Formaximum flexibility each bearing bracket- 58 is preferably secured in pivotal relationship with the upper end. of its. associated hydraulic jack, as at 59, thereby enabling one side of the roof to be raised relative to or by a different. amount than theother side, as required or desired. In those instances where the removable roof section is of a. dimensionsapproximating 20' feet long by'15 feet wide four .jacksmay beused, one adjacent each of the skew channels '53 and 52.'

Charging platforms, denoted generally by the numerals '70, may be providedo-ne along the front and onealong the rear edge of the furnace. The forwarder-inner sideof each platform maybe pivotally-secured as at l2 to a suitable supporting element M, whereasthe opposite or outer side of each platform may be supported on hydraulic jacks IE-orby other suitable means operable for movingthe platform from a lowered, leading position to a tilted, furnace-charging position.

The dimension of platforms 7!) are such as to accommodate a sufficient quantity of light, as isscrap tocompletely charge the furnace at In the. preferred embodiment of the invention, the inner side of each platform is provided with a hopper or material bin 80 pivotally secured as-at 82 to the'fo-rward edge of platforms ill. Bins 8d are constructed and arranged to receivedesired quantities of such elements as manganese, carbon-or the like. By reason. of the structuraldetailsof said bins, their contents may be deposited into the interior of the furnace prior to and independently of tilting 'of platforms 1'0, thereby providing greatflexibility of furnace operation, see Fig. 4.

Suitable means such asa stop vided for normally maintaining bins 30 in aretracted loading position, it beingfurther understood that wall 86 will, when the bin has been moved to a lowered, furnace charging position, overlappingly engage the upperend' of a front or rear furnace wall, as indicated in Fig. 4, thereby' depositing the materials contained within bin into the interior ofthe' furnace. After the contents of bin Bl) have been thus discharged, wall'88 may, by reason of its pivotal connection with reference to front'bin' wall 86 and bottom 81 of the platform'assume the positionindicated 84 may be pro- 7 observed that the manner in which loading plat-' forms are associated with reference to the furnace walls enables the furnace to be charged when the removable roof I6 has been elevated by an amount just sufficient to clear the front and rear walls of swingable bin 80.

After the scrap has been suitably reduced to a molten state, further elements may be added to the melt by means of a hollow stopper rod denoted generally by the numeral 80 which may be" supported by and operated from a suitable device, denoted generally by the numeral 92 adapted to be received on and carried by work platform 94 secured over and in spaced relationship with removable roof section I6. If desired, the work platform may be secured to and supported by skew channels 50 and 52 by means of structural elements 96, 98 and I00.

Suitable means such as dowel elements I02 may be carried by work platform 94 in order to insure accurate alignment of device 82 and stopper rod 90 with reference to apertures I 04 and I06 provided thru work platforms 94 and removable roof section I6, respectively, each of which apertures are disposed in substantially vertical alignment with the axis of the pouring nozzle assembly 25 secured to and carried by bottom wall I0.

t will be understood that suitable means, such as a plug brick, I 03, Fig. 4, will normally close aperture I 06 during those periods of time when the furnace is brought up to heat, said plug being conveniently accessible from the work platform.

The stopper rod assembly and drive mechanism 92 are adapted to be moved as a unit onto work platform 94 by suitable means, such as, by way of example, a crane or the like; hook like members H0 may be provided for this purpose.

With reference now to Fig. 2, it will be noted that stopper rod 90 includes an axially disposed hollow casing I to the outer face of which a suitable insulating or refractory material I22 is provided for protecting it from the deleterious effects of the temperatures, gases and molten metal of the furnace. In the preferred embodiment of the invention, the lower portion of casing I20 isprovided with a cutting tool I24 threadably secured thereto as at I26. This cutting tool may include a plurality of laterally extending webs or fins I21, each of which are secured to and carried by a central tubular portion I25 and each of which may be provided with suitable apertures I23 through which refractory material extends for looking it to the cutting tool, as illustrated.

The lower edge 05 each of fins I 21 may be provided with a cutting or abrading edge I for effecting a tapered seat I32 in the bed of rammed material I34, and with which seat the forward end of the stopper may be associated for controlling the flow of molten material from the furnace to pouring nozzle 26.

It will be.understood that a suitable rotary motion will be imparted to the stopper rod in order that seat I32 may be cut or formed in the bed of rammed material. After the seat has thus been provided, a suitable drill denoted gen.- erally by the numeral I40 may be lowered axially thru casing I20 and then rotated for cutting a passageway thru the bed of rannned material I34 in axial alignment with bore 30 of nozzle brick 25. After a passageway has been thus provided thru the rammed material, the loosely packed refractory in bore 30 of the pouring nozzle may be dislodged thereby providing a clean, well defined tapping channel. When the stopper rod is elevated, the molten metal will flow thru the pouring nozzle into suitable molds 4|, see Fig. 1.

In those instances where it is desirable to in troduce the various elements into the melt, suitable means may be provided for introducing such elements under pressure, downwardly thru casing I20 directly into the stream of metal being discharged from the bottom of the furnace Into the tap hole.

In those instances where the chemical analyses of the melt does not require the addition of further elements, a suitable stopper plug may be lowered thru casing I 20 for preventing the entry of molten metal upwardly into the interior of the casing.

In other instances, suitable elements may be introduced under pressure, downwardly thru casing I20 directly into the molten metal of the furnace but prior to the establishment of an opening thru the bed of rammed material. In this manner, it will be observed that the desired elements may be added to the molten metal beneath the surface of the slag, thereby'materially increasing the effectiveness of such additions. 7

After the furnace has been tapped, the tap hole may be plugged by introducing rammed material into the hole through the hollow stopper rod,

thereby effectively sealing the furnace bottom for the next melt.

After the tap hole has been plugged, the pourin nozzle may be removed and a new or reconditioned one attached. Further rammed material may then be introduced through rod to assure a good sound bed of rammed material I34.

After the tap hole through the rammed material has been completely plugged, the stopper rod assembly including device 92 may be lifted from the work platform after which aperture I06 in removable roof section I6 may be closed by a suitable brick plug, I03.

The removable roof section, including work platform 94 may then be lifted to facilitate charging of the furnace, see Fig. 4.

It will be observed that a furnace constructed and arranged as illustrated in the drawings may be operated in such a manner that the melt may be partially tapped, after which the tap hole may be sealed off by means of rammed material, after which the analysis and/or temperature of the remaining melt may be completely and radically changed from that already tapped, thereby providing maximum flexibility of furnace operation.

It should be observed that the characteristics or analysis of the melt discharged thru pouring nozzle 26 may be effectively controlled at the time of tapping by introducing or injecting suitable control substances directly into the stream of molten metal being tapped. In this manner various alloys would be introduced downwardly thru casing I20'and injected, by suitable means, into the melt entering the top of the tap hole.

If desired, deoxidizers, such as, by way of examp1e;; fe1'1i0-:si1ic on, manganese or, other suitable substances; may be introduced into'the melt for reducingthe oxygen content thereof. In the same manner; desulphurizers; such as aluminum silicon, may beintroduced-into the melt.

It will likewise beiobserved that suitable flushing agents, such as argon or boron gas, maybe introduced into the melt for the purpose of-elirninating the hydrogen gas particles contained in thernelt. When the flushing is accomplished thru hollow stopper rod 98 and is introduced into the melt as it enters the top of the tap hole, the flushing gas roaches and reacts with a maximum area of the melt flowing thru the nozzle thereby insuring positiveresults heretofore unobtainable in the steel making art. 1

It, should be further understood that suitable control substances-which term as used herein 7 includes alloys, deoxidizers, 'desulphurizers. and

. and modifications may be made in the structural details of the'clevice within the scope of the appended claims, without departing from the spirit of the invention,

What is claimed is:

- 1. A top-charging open hearth furnace including front," rea1'..and side walls, a; removable roof spanning the upper portions'of said walls for controlling access to the interior ofsaid furnace,

means to elevate said roof foruncovering the upperedges of said front and rear walls, scrap ,plat'forms located adjacentand extending along substantially the entire length oftheupper edges of said front and rear Walls, andmeans for tilting said platforms relative to the. upper edges of said front and rear wallsfordischarging the contents of saidplatforrnsinto the interior of the furnace. over. the upper edges of said front and rear walls.

.2. A top-charging-open hearth furnaceinoluding-front, rear and-side walls, a removable roof spanning the upper portions of said walls for controlling access to the interior ofsaid furnace, meansto elevate said roof for uncovering the 7 upper edges of said front and rear walls, scrap and means for tiltingsaid platforms relative to the upper edges of said frontand rear wallslfor discharging the contents of said platforms into the interior of the furnace over the upper edges of said front and rear walls.

Number Name ,Date 567,348 Campbell Sept.'15,.1896 672,601 Frolich .Apr. 23,1901 676,643 Wellman June 18, 1901 1,076,795 Rowe Oct. 28, 1913 1,135,025 Klug Apr. 13,1915 1,409,716 ilenshaiv Mar. 14, 1922 L l-18,060 Graham Mar. 13, 1923 1,55 ,136? Raclroif Sept. 22,1925 1,586,17 7 Cole May25, 1926 1,844,791 'l aina Feb. 9, 1932 2,148,751 Linder Feb. 14,1939 2,204,813 Muskat June 18, 1940 2,314,729 Mursch Mar. 23,- 1943 2,358,07i Kincaid Sept.;12, 1944 FOREIGN PATENTS Number Country Date FREDRICII W. GUMPP.

, nsrnnsucss siren The following references are of record in the file of this patent:

UNITED STATES PATENTS Germany July 21,- 1910 

